These are SPECFEM3D simulated surface dataset for Mount St. Helens and Yellowstone network configurations
Due to the limitation of the Harvard Dataverse, each dataset is splited into a set of file with size <2.5G
Reconstruction is needed before decompress:
-------	Mount St. Helens networks: MSH_part_*
	to reconstruct the original file:
	cat MSH_part_* > MSH.tar.gz
	tar -xzvf MSH.tar.gz
	The decompress files should be .mseed files named as:
		Network.Station.mseed
		the Network.Station is the station that treats atvirtual source 
------- Yellowstone network: YS_part_*
	to reconstruct the original file:
	cat YS_part_* > YS.tar.gz
	tar -xzvf YS.tar.gz
	Decompress files are similar to the MSH

FK–SPECFEM3D simulated teleseismic wavefield are included for MSH and Yellowstone networks
Reconstruction:
------- Mount St. Helens networks: Tele_MSH_part_*
	cat Tele_MSH_part_* > Tele_MSH.tar.gz
	tar -xzvf Tele_MSH.tar.gz
	The decompress files should be .mseed files names as:
	back_azimuth_%angle_MSH.mseed
	the angle is the back azimuth of incident wavefield
------- Yellowstone network: Tele_YS_part_*
	cat Tele_YS_part_* > Tele_YS.tar.gz
	tar -xzvf Tele_YS.tar.gz

Receiver functions of the simulated teleseismic wavefield are included
Reconstruction:
------- Mount St. Helens networks: RF_MSH_part_*
 20         cat RF_MSH_part_* > RF_MSH.tar.gz
 21         tar -xzvf RF_MSH.tar.gz
 22         The decompress files should be .mseed files names as:
 23         rf_baz_%angle_MSH.mseed
 24         the angle is the back azimuth of incident wavefield
 25 ------- Yellowstone network: RF_YS_part_*
 26         cat RF_YS_part_* > RF_YS.tar.gz
 27         tar -xzvf RF_YS.tar.gz
